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XRay

X-ray refers to a form of electromagnetic radiation with wavelengths from about 0.01 to 10 nanometers, placing it between ultraviolet light and gamma rays. X-rays carry enough energy to ionize atoms and can penetrate many materials, with absorption depending on density and atomic number. They were discovered in 1895 by Wilhelm Conrad Röntgen, who observed a glow from a phosphor screen near a cathode ray tube and named the radiation for its unknown nature.

X-rays are produced primarily in X-ray tubes by accelerating electrons and colliding them with a metal target,

Applications are extensive. In medicine, X-rays are used for radiography and computed tomography to image bones

Safety and regulation emphasize that X-rays are ionizing radiation and pose health risks with sufficient exposure.

usually
tungsten.
The
resulting
spectrum
consists
of
a
broad
Bremsstrahlung
continuum
and,
for
certain
target
materials,
characteristic
lines.
When
X-rays
pass
through
matter,
they
interact
mainly
through
photoelectric
absorption
and
Compton
scattering,
with
Rayleigh
scattering
contributing
to
small-angle
deflections.
The
degree
of
attenuation
increases
with
material
thickness,
density,
and
atomic
number.
and
soft
tissues.
In
industry,
they
enable
nondestructive
testing
of
components.
In
science,
X-ray
crystallography
determines
molecular
structures,
and
X-ray
diffraction
studies
contribute
to
materials
science
and
chemistry.
In
astronomy,
X-ray
telescopes
observe
high-energy
phenomena
such
as
black
holes
and
hot
interstellar
gas.
Protective
shielding
(often
lead),
exposure
minimization,
and
monitoring
are
standard
practices,
governed
by
occupational
and
medical
guidelines
to
keep
doses
as
low
as
reasonably
achievable.